Timo Scherer scite author profile

Timo Scherer

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Additive Fertigung keramischer Schneidstoffe/Additive manufacturing of ceramic cutting materials. Production of indexable inserts for turning using the LCM process

Weigold¹,

Scherer²,

Schmidt³

et al. 2020

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Die additive Fertigung von Schneidstoffen hat das Potenzial, leistungsfähigere Zerspanungswerkzeuge zu ermöglichen. Das Lithography-based Ceramic-Manufacturing-(LCM)-Verfahren erlaubt die Fertigung hochbelastbarer Bauteile aus Keramik. Dieser Beitrag stellt zum einen das LCM-Verfahren und zum anderen die Entwicklung additiv herstellbarer Wendeschneidplatten vor. Zuletzt erfolgt die Überprüfung der Funktionstauglichkeit von additiv hergestellten keramischen Wendeschneidplatten in Außenlängsdrehversuchen mit vermicularem Gusseisen (GJV-450).   The additive manufacturing of cutting materials has the potential to enable more efficient cutting tools. The Lithography-based Ceramic Manufacturing (LCM) process allows for the production of high-performance ceramic components. This article presents the LCM process as well as the development of indexable inserts that can be produced additively. Finally, the results of external longitudinal turning tests in Compacted Graphite Iron (CGI-450) are presented.

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Strukturoptimierte Zerspanungswerkzeuge*/Structure-optimized cutting tools – CAE process chain for designing additively manufactured tool bodies

Abele¹,

Scherer²,

Schmidt³

2018

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Die additive Fertigung von Zerspanungswerkzeugen rückt stärker in den Fokus industrieller und wissenschaftlicher Forschungsarbeiten. Die Designfreiheit additiver Verfahren ermöglicht die Herstellung komplexer Bauteile mit materialeffizienter und kraftflussgerechter Geometrie. Um diese Potenziale für neuartige Werkzeugkonzepte zu nutzen, wird eine CAE-Prozesskette zur Durchführung einer Finite-Elemente-Analyse (FEA) und anschließender Strukturoptimierung, basierend auf am Markt verfügbaren Softwarelösungen, vorgestellt.   Additive manufacturing of cutting tools is becoming more and more the focus of industrial and scientific research. The freedom of design of additive processes enables the production of complex components with material-efficient and force flux oriented geometry. To exploit this potential for novel tool concepts, a CAE process chain is presented for implementing an FEA and subsequently optimizing the structure based on software solutions available on the market.

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Additive Fertigung keramischer Schneidstoffe

Weigold¹,

Scherer²,

Schmidt³

et al. 2020

VDI-Z

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Timo Scherer

Additive Fertigung keramischer Schneidstoffe/Additive manufacturing of ceramic cutting materials. Production of indexable inserts for turning using the LCM process

Strukturoptimierte Zerspanungswerkzeuge*/Structure-optimized cutting tools – CAE process chain for designing additively manufactured tool bodies

Additive Fertigung keramischer Schneidstoffe

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